Category Archives: 2 – 2018 February Highlights – Learners of All Ages

The Power of Compassionate Teachers

The 2018 Golden Globes were down in Nielsen ratings compared to last year. According to Variety.com in a January 8, 2018 post, the Golden Globes drew in 19 million viewers representing an 5% drop in total viewers from 2017 (20 million).¹ Audiences watched the 2018 Golden Globe awards which aired on January 7, 2018 and although viewership was down, the news coverage for the event had a lasting impact as a result of the acceptance speech given by the lifetime achievement recipient of the 2018 Cecil B. de Mille Award – Oprah Winfrey. Though her moving speech lasted less than 10 minutes, it is one that will be remembered for a long time.

If the media’s response is any indication of whether it will go down as one of the greatest acceptance speeches, I’d say it is well on its way.

As of the writing of this blog, one 9.40 min clip posted by NBC of Oprah’s speech garnered over 7.5 million views and a google search of “Oprah Golden Globe 2018 speech” produces over 21 million hits just 5 days after the airing of the show.²

While I can go on about the themes in her speech, cultural statements she made, her great display of emotional intelligence, her well-structured speech, or its timeliness, it is what she didn’t say in her acceptance speech, but rather what she said in the backstage press room that stood out.

In the typical fashion of Golden Globe winners, Oprah exited the stage after her acceptance speech and proceeded backstage to take questions from journalists. So, what did millions of viewers not hear in her speech that they missed in from her Q&A session with the press? For that information, you had to wait for the fourth question asked by a female journalist. The journalist asked,

“What advice would you give 7-year-old Oprah (or 13-year-old Oprah) about surviving as a woman in this world?

The full video of her backstage Q&A session was posted by Variety on January 7, 2018 and has an impressive 1.1 million views, 9.55 minutes (within 5 days).³ Interestingly, Forbes wrote the only news piece about the backstage session.⁴ What would Oprah tell her 7-year-old self? Without hesitation, Oprah responded,

“At seven, I was so sad and um… at seven, all of my real love came from my teachers. And so my teachers, (I would say that to anyone in this room), you have no idea the power of noticing another human being. And what it feels like when somebody knows that they been seen – truly seen by you. It is the greatest offering you can give.”

Did you catch that? All of her real love came from her teachers. During those formative and critical years, her teachers showed her love and noticed her.

Oprah goes on to describe how the core need of humans to be noticed continues into adulthood.

“And all those years of the Oprah show, the greatest lessons I learned was that after every show someone would say invariably in one way or another um, “How was that?” I would finish an interview with…politicians, Barack Obama, George Biden, George Bush…Beyonce… they all say the same thing, “How was that?” and so I started to see that there is this common thread in our humanity, where everybody wants to know, “How was that, did I do okay? Did you hear me? And did what I say mean something to you?”

Sound familiar? Feedback. Whether you are being interviewed by a journalist or interacting with the teacher or peers in the classroom – we all desire feedback. Feedback offers student insight into what they did or did not do well. Feedback informs students about performance, behavior, competencies, understanding, and it is where learning takes place. We all desire positive, constructive feedback.

Oprah concludes with a powerful statement on the importance of being heard.

“So, I would have to say that recognizing that in other people has helped me to become, you know, a person of compassion, a person of understanding, a person who can interview anybody about anything cause I know that at the core of you is the same at the core of me, you just want to be heard.”

You won’t see this part of her wisdom highlighted in blogs, news, or features. Yet, her words give teachers something to think about. Students (and teachers) have a core need to be noticed, receive feedback, and be heard. Educational Psychology agrees:

Teachers effect student’s personality and performance,⁵
Teachers influence the classroom’s social context on learning and teaching,⁶
Teachers play a role in establishing a climate in which all students are accepted, valued, and respected,⁷and
Teachers influence intrinsic motivation for learning in students and encourage life-long learning.⁷

As we enter a new semester, let us reflect on the influence we have on learners through interpersonal relationships and communication that occurs with our students, and thereby affects learning and student long-term success.

References

TV Ratings: Golden Globes Down Slightly From 2017 http://variety.com/2018/tv/news/golden-globes-ratings-2018-1202656292/#utm_medium=social&utm_source=twitter&utm_campaign=social_bar&utm_content=bottom&utm_id=1202656292 via @variety
Oprah Winfrey receives the Cecil B. de Mille Award at the 75th Annual Golden Globe Awards. https://youtu.be/fN5HV79_8B8
Oprah Winfrey – 2018 Golden Globes – Full Backstage Speech. (9.55 min.) https://youtu.be/4CGBSGEkbKA
Oprah Winfrey – 2018 Golden Globes – Full Backstage Speech. (begins at 06 min., https://youtu.be/4CGBSGEkbKA?t=5m6s)
What Oprah Winfrey, The Star of the Golden Globes, Had to Say Backstage (Fores, January 8, 2018, https://www.forbes.com/sites/maddieberg/2018/01/08/what-oprah-winfrey-the-star-of-the-golden-globes-had-to-say-backstage/#426985353e32)
The effect of teachers’ attitudes on students’ personality and performance. Procidea Social and Behavioral Sciences 30 (2011) 738-742. M. Ulug, M.S. Ozden, and A. Eryilmaz (https://doi.org/10.1016/j.sbspro.2011.10.144)
American Psychological Association, Coalition for Psychology in Schools and Education. (2015). Top 20 principles from psychology for preK–12 teaching and learning. Retrieved from http:// www.apa.org/ed/schools/cpse/top-twenty-principles.pdf

Dr. Jessica M. Ibarra, is an Assistant Professor of Clinical and Applied Science Education at the University of the Incarnate Word (UIW) School of Osteopathic Medicine (SOM) at the Medical Campus in Brook City Base in San Antonio, TX. Dr. Ibarra teaches gross anatomy and neuroanatomy in the Master of Biomedical Sciences Program. She received her doctorate degree in Cellular and Structural Biology from the University of Texas Health Science Center in San Antonio (UT) where she also completed a postdoctoral fellowship. Following receipt of her doctorate, Dr. Ibarra joined UIW in 2009 Her scholarly work and interests have led her to teach physiology and anatomical sciences to students interested in pursuing a career in the health professions. As a researcher, she conducted studies to explore the role of key inflammatory factors involved in chronic diseases such as heart failure, arthritis, and diabetes. When Dr. Ibarra is not teaching, she inspires students to be curious about science with visits to local schools. She performs hands-on science activities during Physiology Understanding Week, at the Science Fiesta, and the USA Science Engineering Festival in Washington, DC. Dr. Ibarra’s passion for teaching and service translates into facilitating learning in the next generation scientists and physicians. Dr. Ibarra is a native of San Antonio and is married to Armando Ibarra. Together they are the proud parents of Ryan, Brianna, and Christian Ibarra.

Fastballs, houses, and ECG’s

As adults of ever increasing age, I am sure almost every one of you has had a conversation lamenting your loss of physical abilities over the years. “I used to be able to do that.” “I used to be good at that.” As a parent to two young, energetic, fearless boys I hear (and think) these sentiments almost daily. While watching children play on a playground, sprinting for hours, hanging upside down, contorting their bodies into nearly impossible positions, jumping (and falling), twisting and turning, and literally bouncing off walls, parent conversations almost always include incredulous statements about children’s’ physical capacity followed immediately by a statement of the parents’ lack thereof. More than once I’ve heard a parent say, “If I did that, I’d be in the hospital.”

But have you ever actually thought, “Why can’t I do that anymore?” The answer isn’t just “I’m too old”. Obviously the physiologic changes of age are undeniable, but it’s a more complicated reason. At some point in your life, you stopped playing like children play. You stopped running and jumping and twisting and turning. You move in straight lines. You sit for hours. You don’t try that new move. It looks too hard. You might hurt yourself. As physiologists, we all know about homeostasis and adaptations, and it’s no surprise that our lifestyles have contributed to our physical inability in adulthood. Of course you would hurt yourself if you tried ‘that’, but only because you haven’t tried anything like that in years. Start trying ‘that’ though, and over time you’ll find yourself much more physically capable despite the aging process.

This childhood to adulthood performance decrement is not exclusive to physical capacity though. We are doing much the same to our mental capacity with age. A child will take physical risks on the playground, much as they also take mental “risks” in the classroom. Ask a group of 3^rd graders a question, any question, almost all of them raise their hand hoping to answer…even if they don’t know the answer. And the student who got it wrong, will raise his hand again after the next question. Give them a challenge or a mystery to solve and they will dive right in. Let them touch and feel and manipulate. They don’t hesitate. They are on their mental playground. This is how they learn. As adults though, we aren’t going to the mental playground, because that’s not what adults do. We sit in chairs. We watch lectures. We make notecards. We read papers. We study the learning objectives and the PowerPoints.

Just as adults could physically benefit from some time on the playground every day, adults (and I’m including college students in this category) can also benefit from time on a mental playground. Even as educators of other adults, we need to remember this. We often forget the multitude of ways that we can put our students on the mental playground. We don’t do an activity, because the students might think it’s ridiculous. It might waste too much time, and there is too much material to cover today. I have found in my classrooms though, that activities that would work with kindergarteners can work equally well for college students.

To give examples of ways to put college students on the mental playground, I would like to share two activities that I have done in a physiologic assessment of health course that have been very effective. The course consists of juniors and seniors who have already taken several biology, chemistry, and physiology courses beyond anatomy and physiology. The first assignment that I give them is to work with a partner to draw a picture of a person with as many health risk factors as they can think of. I have found that most students who take this class (instructor included) are horrible artists, but this adds to the fun of the assignment. The students love it and come up with thousands of creative ways to represent health risk factors. We have a discussion over which drawings have incorporated the most “official” risk factors (as designated by national organizations like ACSM, AHA, etc.) and why some of the others are certainly not healthy (setting off fireworks indoors), but not listed as official risk factors. Something about taking the time to draw silly pictures on a specific topic really aids in student understanding (anecdotally in my class, but evidence exists that this is effective (Ainsworth S, Prain V, Tytler R. Drawing to Learn in Science. Science. 333 (6046),1096-1097, 2011.).

Another assignment I’ve had good results with to get students onto the mental playground is half mystery for the students to solve and half drawing pictures. I tell the class that we are going to learn about how the heart works and talk about the electrocardiogram. The first thing I ask them to do is to get out of a sheet of paper and to draw a picture of the house they grew up in as if they were looking at it from the road. Normally confusion ensues and the students want to know if it’s for a grade (yes), and why they’re doing it (trust me, it’ll make sense later). After giving the students time to sketch their house, I ask permission to show each to the class, and then ask the question to the class. “Whose house is bigger?” Ultimately the students come to the conclusion that it is nearly impossible to tell without knowing the perspective and distance from the artist and the other views of the house (the front view is only one of multiple views that would be needed to construct the 3-dimensional size of the house). Then, still without talking about the heart, I ask them to draw a picture of a baseball (just the baseball) being thrown. Once again I show the drawings to the class. All usually agree that everyone probably knows the approximate size of a baseball, but then I highlight how different people drew different sizes on the paper. Once again I discuss perspective and how large a baseball looks when it’s about to hit you in the face, because it takes up your entire field of vision, but if it were thrown at you, it would look smaller relative to your field of vision at the start. If you’re watching people playing catch equidistant from both, the ball might move back and forth without appearing to change size relative to the visual field. But all the baseballs are still the same size!

Finally, after the house and baseball drawings I ask, “what did all of that have to do with the heart and electrocardiograms?” After a few minutes, most students understand the theory behind the electrocardiogram without ever having analyzed one. I’ve even had a strong student who was finishing her clinical exercise testing degree that semester say that even though she had taken several courses on ECG analysis and knew how to read them to get good grades on ECG tests, this was the first time she truly “got it.”

Thousands of other ways to engage students on the mental playground are out there as well. Discussing muscle physiology? Hand out rubber bands before class starts and ask them to think about how muscles and rubber bands are remarkably similar yet not the same at all. Teaching about bones? Pass out a few models to let them hold and manipulate. Then ask the students to pretend they’re cavemen and they need to build all of their tools out of bones, which bones would make a good hammer? A good bowl? Spoon? Fork? Weapon? Teaching about brain physiology? Have the students invoke thoughts, memories, feelings or movements and then tell them which part of the brain is responsible. Be creative and remember that just like our bodies, our minds work best when they’re stretched and twisted and used in different ways on a regular basis.

I do not know enough about educational psychology to understand the underlying mechanisms by which these types of activities work (my PhD is in Kinesiology after all – a content expert told to teach well!). And admittedly most of my evidence that they work is anecdotal or comes by way of gradually improved student scores on final exam and practical questions related to my course objectives over several semesters in which I certainly adjusted more than one variable. However, I do know that in learning, students attend to touch and feel, emotion, and mystery. The same thing you’ll witness at an elementary school playground. Incorporating these into your lessons, even in the simplest of ways can be beneficial for all different types of learners. I’m asking you to turn your classrooms into intellectual playgrounds. Encourage risk taking. Validate atypical approaches. Make it fun. Make it engaging. All the memorized note cards might be forgotten by next semester if it’s not.

Ed Merritt is an assistant professor in the Department of Kinesiology at Southwestern University in Georgetown, Texas. Ed received his doctorate in Kinesiology from the University of Texas at Austin and completed a postdoctoral fellowship in Cellular and Integrative Biology at the University of Alabama at Birmingham. Ed was a faculty member at Appalachian State University until family ties brought him back to central Texas and Southwestern University. Ed’s research focuses on the molecular underpinnings of skeletal muscle atrophy after trauma and with aging, but he is also equally involved in the scholarship of teaching and learning and melding educational outreach activities with service learning.

The Benefits of Having Nontraditional Age Students in Your Classes

If asked the traditional age of a college student, most people would answer between 18-22 years old. While for many colleges this is accurate, at our college we have some students that are above the age of 22, and designated nontraditional age students (Nontrads). These students are enrolling at an older age for several reasons. Some have had other careers, and finally mustered up the courage to start fulfilling their dream of getting a college degree. These students could also be the first in their family to go to college, and are designated First Generation students. Others started college at the traditional age, and then stopped attending (stopped out). The reasons for stopping out vary, and could be for academic reasons, financial instability, or family obligations. Some are transfer students that work full time, have been taking one or two courses a semester at a community college, and are now moving on to a four year college. A fourth group are military veterans. These students served in the military for several years and are now just beginning their college careers. A final group are students who earned a Bachelor’s degree at a traditional age, had a career, and are now back to take prerequisites for graduate or professional school.

The course where I see the greatest mix of all these students is in Principles of Biology I & II. These are the required courses for first year science majors on our campus. In a room full of students, the Nontrads can sometimes make up 20% of the class enrollment. This provides a unique environment that I really enjoy. While some of the Traditional age students might be intimidated at first to have an older student sit next to them, as the professor standing in the front of the room I have a different perspective. What I see when I look at the Nontrads is typically someone who is engaged from the first day of class, and ready to get to work. These students have had life experiences, and they know without a doubt that the college classroom is where they want to be at this point in their lives. They are focused and want to get the most out of this experience. Usually a Nontrad is the first to answer my questions, or raise their hands on the very first day of class. For me that first day experience is very important for all the students and getting them past the barrier of participating in class is important. Having a Nontrad start off right away by participating is a joy and the beginning of forming a community that is open to discussions. I encourage their engagement and this leads to more positive interactions. These interactions benefit the Nontrad as they may be a bit uncertain about starting college at an older age and getting the reassurance from the professor early helps ease their minds while building their confidence. It is no surprise that the Nontrads are the students whose names I learn first and then call on them by name (Student A). One pitfall is that they will start answering every question I ask, and to gently discourage this I will say to the entire class “Now Student A cannot answer all the questions, come on folks who wants to answer this question?” This allows me to get different students involved in the class without discouraging others.

Another unique quality found in the Nontrad student population is that they are not concerned about the test. Everyone knows what I mean by this, students that only want to understand and perhaps memorize information that they will be tested on in a few weeks. The Nontrads want to understand what they are learning at a deeper level and they find connections to the material that most of the Traditional students would not initially make. They bring their life experiences into the classroom and it benefits everyone. Some of our students want to go on to careers in health care (PA, MD, OD), and I often have Nontrads in the class who are currently working part time (or full time) as paramedics, emergency medical technicians (EMTs), or they were a medic in the military. They bring in real life examples of some of the principles that we are going over in class. I love to hear these stories as they bring the concepts to life for the entire class. These stories benefit all of us as they capture the attention of the students, engage them, and also provide me with yet another example of the concept we are discussing.

For the Traditional age student, the Nontrads are often active mentors to them in the classroom. During a break in class I will see the Nontrad explaining concepts to the Traditional age student sitting next to them. If the Traditional age student is receptive to this mentoring it will continue to occur throughout the semester. Being mentored by a Nontrad benefits the Traditional age student as they will then understand the material at a deeper level and any misconceptions can be addressed during class time. Mentoring benefits the Nontrad as they gain confidence in their knowledge. Because of this positive experience some of the Nontrads will become tutors in our tutoring center the following year.

I enjoy sharing stories about the Nontrads who have had interesting lives before they came to our college and will share a few favorites with you. One was a diamond broker, and then a massage therapist, before majoring in science. She will earn her Ph.D. in Biochemistry next year. Our commencement speaker last year was a plumber, who became a member of Phi Beta Kappa and won the Beta Chapter award for the highest GPA at our university. He is now in an MD-Ph.D. program. Our biology program award winner for the previous year was a diesel engine mechanic, who had attended every community college in the state before switching his focus to science. He is now in his first semester of a Ph.D. program in microbiology. The final example I will share is of our convocation speaker a few years ago. He told family and friends he did not need college, as he was going to be a rock star. After getting married, having two children, and realizing he did need college, he came to us after getting an Associate’s degree at a community college. He earned his Bachelor’s degree with a 4.0 GPA and is now in his second year of dental school. Having Nontrad students in the classroom benefits them, their classmates, and their professors. I am continually grateful they have decided to attend our college and look forward to having them in my classes in the future.

Patricia A. Halpin is an Assistant Professor in the Life Sciences Department at the University of New Hampshire at Manchester (UNHM). Patricia received her MS and Ph.D. in Physiology at the University of Connecticut. She completed a postdoctoral fellowship at Dartmouth Medical School. After completion of her postdoc she started a family and taught as an adjunct at several NH colleges. She then became a Lecturer at UNHM before becoming an Assistant Professor. She teaches Principles of Biology, Endocrinology, Cell Biology, Animal Physiology, Global Science Explorations and Senior Seminar to undergraduates. She has been a member of APS since 1994 and is currently on the APS Education committee and is active in the Teaching Section. She has participated in Physiology Understanding (PhUn) week at the elementary school level in the US and Australia. She has presented her work on PhUn week, Using Twitter for Science Discussions, and Embedding Professional Skills into Science curriculum at the Experimental Biology meeting and the APS Institute on Teaching and Learning.